A plurality of remotely readable sensor apparatus and reader systems for collecting data frames from all apparatus within the reader field of view. Each sensor apparatus converts one or more environmental observable into information signals, converts the information signals into digital data and appends other discriminating digital data as desired to form a digital data frame. The state of a diode, connected to an antenna with the digital data frame, is modulated and a timing apparatus controls the digital-data-frame start times. The modulated states of the diode connected to a sensor-apparatus antenna are chosen so the angle of the antenna reflection coefficient is modulated between two values separated by approximately 180 degrees, so a carrier signal received by the antenna effects a bi-phase modulated signal containing the digital data frame that is reflected by the sensor-apparatus antenna toward the reader receiver antenna.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A remotely readable sensor apparatus, comprising: a sensor system having a minimum detectable sensor-apparatus antenna capture area, comprising: at least one sensing circuit for converting environmental input data to digital data; a data processor for receiving said digital data and appending additional information thereto to form encoded data; a memory means for storing said encoded data as a data frame; a modulation signal generator for receiving said data frame stored in said memory means, forming a data packet therefrom and outputting a modulation sequence; an RF bi-phase modulator for receiving said modulation sequence; and a sensor-apparatus antenna having a detectable capture area and a reflection coefficient that is determined by the states of said RF bi-phase modulator; whereby said RF bi-phase modulator is driven by said modulation sequence to change said reflection coefficient angle by a P-N junction device, and to produce a reflected signal in response to a carrier signal; and a reader system, comprising: a reader transmitter for generating said carrier signal; a reader transmitting antenna for transmitting said carrier signal to said sensor-apparatus and reader receiving antenna for receiving said reflected signal from said sensor-apparatus; a reader receiver for processing said reflected signal to form a processed reflected signal; a demodulator for receiving said processed reflected signal and outputting said encoded data; an information decoder for decoding said encoded data to retrieve said data frame; and a local memory for storing said data frame.
2. The remotely readable sensor apparatus of claim 1 , wherein said memory means is a FIFO memory.
3. The remotely readable sensor apparatus of claim 1 , wherein said storage means stores said data frame at least at one predetermined time.
4. The remotely readable sensor apparatus of claim 3 , wherein said at least at one predetermined time is generated by a preset timing algorithm.
5. The remotely readable sensor apparatus of claim 1 , wherein said data packet comprises said data frame, a pre-amble and a post-amble.
6. The remotely readable sensor apparatus of claim 1 , wherein said P-N junction device is modulated between two different reactive states so as to change said reflection coefficient angle.
7. The remotely readable sensor apparatus of claim 6 , wherein said modulation is a two-state signal.
8. The remotely readable sensor apparatus of claim 7 , wherein said two different reactive states are mapped into two reflection-coefficient states each substantially equal in magnitude and substantially opposite in phase.
9. The remotely readable sensor apparatus of claim 7 , further comprising a passive two-part matching network for mapping said two different reactive states.
10. The remotely readable sensor apparatus of claim 1 , wherein said P-N junction device has a minority-carrier lifetime shorter than a highest modulation frequency and longer than a period of said carrier signal.
11. The remotely readable sensor apparatus of claim 1 , wherein said carrier signal is modulated.
12. The remotely readable sensor apparatus of claim 1 , wherein said carrier signal is pulsed.
13. The remotely readable sensor apparatus of claim 1 , wherein said sensor antenna is directional.
14. The remotely readable sensor apparatus of claim 1 , wherein said sensor system is affixed to a vehicle.
15. The remotely readable sensor apparatus of claim 1 , wherein said sensor system floats on the surface of a body of water.
16. The remotely readable sensor system of claim 1 wherein one reader, having a field of view, collects data frames from a plurality of sensor apparatus located within the field of view in one read interval.
17. The remotely readable sensor apparatus of claim 16 wherein the reader transmitter and the reader receiver are independently located.
18. The remotely readable sensor apparatus of claim 1 wherein the reader transmitter and the reader receiver are independently located.
19. A method for remotely sensing environmental data comprising the steps of: collecting a plurality of environmental inputs via at least one sensing means; formatting said plurality of environmental inputs as digital data; collecting said digital data; storing said collected digital data in a memory storage device as a data frame, said memory storage device accessible by a sensor system having a sensor antenna; constructing a data packet from said data frame; encoding said data packet to construct a modulation sequence; driving an RF modulator with said modulation sequence; generating a carrier signal with a reader transmitter and directing said carrier signal at said sensor antenna; receiving said carrier signal at said sensor system via said sensor antenna; bi-phase modulating said received carrier signal to produce a reflected signal; receiving said reflecting signal with a reader receiver; processing said reflected signal to produce a processed signal; decoding said processed signal to produce said data packet; and recovering said data frame from said data packet.
20. The method of claim 19 , wherein the step of collecting said digital data further comprises the step of appending local information to said digital data.
21. The method of claim 19 , wherein the step of constructing said data packet comprises the additional steps of: reading said data frame from said memory storage device; and applying a preamble and a post-amble to said data frame to form said data packet.
22. The method of claim 21 , comprising the additional step of sending said recovered data frame to a data fusion center.
23. A remotely readable sensor apparatus, comprising: a sensor system having a minimum detectable sensor-apparatus antenna capture area, comprising: at least one sensing circuit for converting environmental input data to digital data; a data processor for receiving said digital data and appending additional information thereto to form encoded data; a memory means for storing said encoded data as a data frame; a modulation signal generator for receiving said data frame stored in said memory means, forming a data packet therefrom and outputting a modulation sequence; an RF bi-phase modulator for receiving said modulation sequence; and a sensor-apparatus antenna having a detectable capture area and a reflection coefficient that is determined by the states of said RF bi-phase modulator; whereby said RF bi-phase modulator is driven by said modulation sequence to change said reflection coefficient angle by a P-N junction device, and to produce a reflected signal in response to a carrier signal; and a reader system, comprising: a local signal of opportunity for generating said carrier signal; a reader transmitting antenna for transmitting said carrier signal to said sensor-apparatus and reader receiving antenna for receiving said reflected signal from said sensor-apparatus; a reader receiver for processing said reflected signal to form a processed reflected signal; a demodulator for receiving said processed reflected signal and outputting said encoded data; an information decoder for decoding said encoded data to retrieve said data frame; and a local memory for storing said data frame.
24. The remotely readable sensor apparatus of claim 23 , wherein the local signal of opportunity is selected from the group of a weather radar signal and a television broadcast signal.
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February 25, 2005
July 31, 2007
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